SDSU Breeders Purchase Near-Infrared Seed Sorter to Fight Wheat Scab


Research associate Navreet Kaur Brar examines winter wheat, which have been inoculated with Fusarium head blight to evaluate the level of scab resistance. Sprinklers, to the right, create the moist environment under which the fungal disease flourishes.Through U.S. Wheat and Barley Scab Initiative funding, SDSU wheat breeders are purchasing a state-of-the-art seed sorter that quickly identifies and removes kernel damaged by Fusarium head blight.

Wheat breeders at South Dakota State University will have a new weapon to fight scab, a devastating fungal disease that affects wheat and barley, thanks to funding from the Agricultural Research Service through the U.S. Wheat and Barley Scab Initiative.

Winter wheat breeder Sunish Sehgal and spring wheat breeder Karl Glover are purchasing a near-infrared seed sorter that can quickly identify and remove seeds damaged by Fusarium head blight, also known as scab.

The machine can also sort by color, size and protein content using 2D and 3D cameras as well as near-infrared spectrometry, which measures reflected light.

Spring wheat breeder Karl Glover (left) examines varieties in the Fusarium head blight resistance screening nursery and Winter wheat breeder Sunish Sehgal checks his plots at the South Dakota State University plots near Aurora.

Each wheat breeder receives approximately $100,000 annually through the scab initiative, but this year’s allotment contained additional funding to purchase the seed sorter. Glover’s 2020 grant is for $166,930 and Sehgal’s is for $191,000.

“We are the first wheat breeding program in the United States to acquire this state-of-the-art machine,” said Sehgal, who is an associate professor of agronomy, horticulture and plant science.

“The instrument will not only sort good kernels from bad (Fusarium-damaged), but gives us the percentage of good kernels for each variety.”

Glover, a professor in agronomy, horticulture and plant science department, said, “This machine will do hundreds of seeds a minute and will help in terms of screening lines we are developing.” It not only saves time, but also eliminates the variability inherent in manually sorting and counting kernels.

In addition, Sehgal plans to work with the Swiss company that manufactures the sorter to develop a means of identifying seeds that have scab mycotoxins growing inside them.

“These kernels cannot be caught unless you do a DON (deoxynivalenol mycotoxin) laboratory analysis; however, quantifying DON content using mass spectrometry is an opportunity which we wish to explore.”

Previous studies have shown some promising results using near-infrared imaging.

Importance of weather to scab

“When temperatures are in the high 70s to 90s and there is plenty of humidity conditions, are good for scab development (spores),” Glover explained.

When this occurs while the wheat is flowering, infection rates are typically high because the spores germinate in the floral structures of the head.

The fungal disease reduces the flow of water and nutrients to developing kernels, dramatically shrinking yields.

In addition, it produces mycotoxins that make the grain unfit for human or animal consumption.

When it comes to scab resistance in spring wheat, Glover said, “Brick (variety) has not yet been consistently surpassed for that trait, though new materials that are nearly as resistant are better in terms of yield and protein content.”

In terms of winter wheat, Sehgal points to Lyman, Redfield and Oahe as having moderate resistance to scab. However, he sees much room for improvement.

Increasing scab resistance

Sehgal is also collaborating with wheat breeders at The Ohio State University and the University of Nebraska-Lincoln to use genomic data to predict scab resistance without testing all varieties.

“We are doing 200 tests in two different locations and using the data to predict how 400 to 600 varieties will fare.”

Years of research worldwide resulted in the identification of several minor and a few major FHB resistance genes, but the underlying mechanism of resistance was largely unknown.

However, recently a few studies have suggested some of these genes actually facilitate Fusarium infection in wheat; therefore, loss of function in these genes could lead to resistance, Sehgal explained.

“We are developing EMS (ethyl methane sulfonate) mutation populations to identify lines in which gene(s) utilized by Fusarium for infection are truncated or silenced leading to a resistance response,” he said.

These projects are supported the Wheat and Barley Scab Initiative and the South Dakota Wheat Commission through checkoff funding.

“Scab is a very important disease,” Sehgal said. “We used to have 4 million acres of wheat and now we have 1.5 million—and one of the major reasons is scab.”

Because weather conditions in eastern South Dakota tend to be conducive to blight, Sehgal said, “This has pushed wheat west.”

By developing varieties with greater scab resistance, the SDSU wheat breeders hope to see more producers planting wheat.